A Model for the Development of Alzheimer’s Disease

细胞外 酸中毒 细胞内 疾病 谷氨酰胺 碱中毒 化学 兴奋性突触后电位 线粒体 细胞 细胞生物学 神经科学 炎症 转录组 细胞内pH值 生物 生物化学 新陈代谢 细胞外液 胞浆 代谢性酸中毒 电池类型 胞外聚合物 医学 平衡 生物物理学
作者
Zhenyu Huang,Xuechen Mu,Qiufen Chen,Luyi Zhong,Jun Xiao,Chunman Zuo,Ye Zhang,Bocheng Shi,Yingwei Qu,Renbo Tan,Long Xu,Renchu Guan,Ying Xu
出处
期刊:Genomics, Proteomics & Bioinformatics [Elsevier BV]
标识
DOI:10.1093/gpbjnl/qzaf087
摘要

Intracellular alkalosis and extracellular acidosis are well-established characteristics of Alzheimer's disease (AD). We present a computational analysis and modeling of transcriptomic data of AD tissues, aiming to understand their causes and consequences. Our analyses have revealed that (1) persistent mitochondrial alkalization is due to chronic inflammation coupled with elevated iron and copper metabolisms; (2) the affected cells activate multiple acid-producing metabolisms to keep the mitochondrial pH stable for survival; (3) the most significant one is the continuous import and hydrolysis of glutamine to glutamate, NH3 and H+, resulting in persistent release of glutamates, an excitatory neurotransmitter, into the extracellular space; (4) this leads to persistent hyperexcitability of the nearby neurons, resulting in their continuous firing and release of H+-rich synaptic vesicles; (5) these H+s are neutralized by bicarbonates released by the neighboring astrocytes in normal tissues, which could not keep up with the increased H+-release in their discharge rates of bicarbonates in AD tissues, leading to progressively increased extracellular acidosis and ultimately cell death; and (6) multiple extensively studied AD-associated phenotypes, including Aβ aggregates and Tau fibers, are induced to help to alleviate the pH imbalances and beneficial to cell survival in the early phase of AD, which gradually become contributors to the AD development. Each step in this model is largely supported by published studies. Overall, we have developed a fundamentally novel and systems-level view of how AD may have developed.

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